Petr Kočalka scite author profile

A general protocol for converting alkyl and aryl halides into azides and for converting these in situ into 1,4-disubstituted triazoles was applied with 5-ethynyl-2'-deoxyuridine. This afforded three modified 2'-deoxyuridine analogues with either unsubstituted or 1-phenyl-/1-benzyl-substituted triazoles in their 5-positions. Modelling demonstrates coplanarity of the two heteroaromatic rings, and UV spectroscopy showed the uracil pK(a) values to be almost unchanged. The three nucleosides were introduced into nonamer oligonucleotides by phosphoramidite chemistry. The heteroaromatic triazoles became positioned in the major grooves of the short dsDNA and DNA-RNA duplexes. While single modifications led to decreased duplex stability, the stacking of four consecutive modifications led to enhanced duplex stability, especially for DNA-RNA duplexes. The duplex structures were studied by CD spectroscopy and molecular dynamics simulations, which supported the conjecture that the duplex stabilizing effect is due to efficient stacking of the heteroaromatic triazoles.

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Rapid and Efficient DNA Strand Cross‐Linking by Click Chemistry

Kočalka

El‐Sagheer

Brown

2008

ChemBioChem

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Click chemistry has been used to covalently cross-link complementary DNA strands between bases to form very stable duplexes. Several alkyne- and azide-modified uracil monomers were used to evaluate the effect of the linkers on the efficiency of the click reaction. All cross-linked duplexes had much higher thermal stabilities than non-cross-linked ones, with increases in melting temperature of up to 30 degrees C. In some cases, the conversion was near-quantitative, and the reaction was complete in 5 min.

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A new fixation strategy for addressable nano-network building blocks

et al. 2010

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Synthesis of diastereomeric 3-hydroxy-4-pyrrolidinyl derivatives of nucleobases

et al. 2007

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Synthesis of racemic and enantiomeric 3-pyrrolidinyl derivatives of nucleobases

et al. 2006

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Petr Kočalka

Synthesis of 5‐(1,2,3‐Triazol‐4‐yl)‐2′‐deoxyuridines by a Click Chemistry Approach: Stacking of Triazoles in the Major Groove Gives Increased Nucleic Acid Duplex Stability

Rapid and Efficient DNA Strand Cross‐Linking by Click Chemistry

A new fixation strategy for addressable nano-network building blocks

Synthesis of diastereomeric 3-hydroxy-4-pyrrolidinyl derivatives of nucleobases

Synthesis of racemic and enantiomeric 3-pyrrolidinyl derivatives of nucleobases

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